MTA18ASF2G72PZ-2G3A1 Micron 16GB DDR4-2400MHZ ECC Registered SDRAM

Capacity

The Micron MTA18ASF2G72PZ-2G3A1 DRAM module has a capacity of 16GB. This high capacity makes it an excellent choice for users who require a large amount of memory for their computing needs. Whether you are a professional working with resource-intensive applications or a gamer looking to enhance your gaming experience, the 16GB capacity provides ample space to handle demanding tasks with ease.

Improved Performance

The 16GB capacity allows for improved performance, especially when working with memory-intensive applications such as video editing software or virtual machines. With more memory available, your computer can handle multiple tasks simultaneously without experiencing slowdowns or lag. This means faster rendering times, smoother multitasking, and overall improved productivity.

Seamless Multitasking

The increased capacity also enables seamless multitasking. You can have multiple applications open at the same time without worrying about running out of memory. This is particularly beneficial for professionals who need to work with several resource-heavy programs simultaneously, such as designers working with complex graphics software or engineers running simulations.

Enhanced Gaming Experience

Gamers can also benefit greatly from the 16GB capacity. Modern games often require a significant amount of memory to run smoothly, especially when playing at higher resolutions or using demanding graphics settings. With 16GB of RAM, you can enjoy a more immersive and fluid gaming experience without worrying about performance issues or stuttering.

Future-Proofing

Investing in a 16GB RAM module ensures that your system is future-proofed to some extent. As software and applications become more demanding over time, having a higher capacity ensures that your computer can handle future updates and requirements without needing an immediate upgrade. This can save you money in the long run and prolong the lifespan of your system.

Compatibility

The 16GB capacity is widely supported by most modern computers and motherboards. This means that you can easily integrate the Micron MTA18ASF2G72PZ-2G3A1 DRAM into your existing system without any compatibility issues. Whether you are building a new computer or upgrading an existing one, the 16GB capacity offers a versatile and reliable solution.

Resource-Intensive Applications

If you work with resource-intensive applications such as video editing software, 3D modeling tools, or virtual machines, the 16GB capacity provides the necessary headroom to handle these demanding tasks efficiently. You can render videos faster, work with larger datasets, and run virtual environments smoothly without experiencing performance bottlenecks.

Professional Workstations

For professionals working in fields such as graphic design, architecture, or engineering, the 16GB capacity is essential. These industries often require handling large files and running complex software that demands significant memory resources. By opting for a 16GB RAM module like the Micron MTA18ASF2G72PZ-2G3A1 DRAM, you ensure that your workstation can keep up with your demanding workload.

Content Creation

Content creators who deal with high-resolution images, videos, or audio files can benefit from the 16GB capacity as well. Editing large files or working with multiple media assets simultaneously becomes more seamless and efficient. You can process your content faster, leading to quicker turnaround times and improved productivity.

Speed

The Micron MTA18ASF2G72PZ-2G3A1 DRAM module has a speed of 2400MHZ. The speed of a RAM module plays a crucial role in determining its performance and how quickly it can transfer data. The 2400MHZ speed of this module ensures fast and efficient data processing, allowing your computer to handle tasks swiftly and smoothly.

Improved Responsiveness

A higher speed RAM module like the Micron MTA18ASF2G72PZ-2G3A1 DRAM leads to improved system responsiveness. Your computer will be able to access and retrieve data from memory faster, resulting in quicker application launches, faster file transfers, and reduced loading times. This can significantly enhance your overall user experience, making your system feel more snappy and responsive.

Seamless Multitasking

The 2400MHZ speed enables seamless multitasking by allowing your computer to switch between different applications and tasks efficiently. When you have multiple programs running simultaneously, a higher speed RAM module ensures that data is transferred quickly between the processor and memory, minimizing any potential slowdowns or bottlenecks.

Enhanced Gaming Performance

Gamers stand to benefit greatly from the 2400MHZ speed of the Micron MTA18ASF2G72PZ-2G3A1 DRAM. Faster data access means that games load faster, reducing waiting times and allowing you to jump into the action more quickly. Additionally, the higher speed RAM module can improve frame rates and overall gaming performance, providing a smoother and more enjoyable gaming experience.

Resource-Intensive Applications

The 2400MHZ speed is particularly advantageous for users who work with resource-intensive applications such as video editing software or 3D modeling tools. These programs often require fast data access to handle the large files and complex calculations involved. With a higher speed RAM module, your computer can process these tasks more efficiently, resulting in faster rendering times and smoother workflow.

Productivity Boost

Whether you are a professional working on complex projects or a student juggling multiple tasks, the 2400MHZ speed contributes to an overall productivity boost. Applications open and close faster, file transfers complete more quickly, and system operations run smoothly. This means less time spent waiting and more time focused on getting things done.

Compatibility

The 2400MHZ speed is compatible with a wide range of modern computers and motherboards. You can easily integrate the Micron MTA18ASF2G72PZ-2G3A1 DRAM into your existing system without any compatibility issues. This ensures a hassle-free upgrade process and allows you to take full advantage of the speed benefits offered by this RAM module.

Professional Workstations

Professionals working with resource-intensive software such as architects or engineers can benefit greatly from the 2400MHZ speed. These applications require fast data access to handle complex calculations and process large datasets. With a higher speed RAM module, your workstation can handle these tasks efficiently, resulting in improved productivity and reduced waiting times.

Gaming Enthusiasts

Gaming enthusiasts who demand high performance from their systems will appreciate the 2400MHZ speed. The faster data access allows for smoother gameplay, reduced loading times, and improved frame rates. Whether you are playing the latest AAA titles or competitive online games, the higher speed RAM module provides a competitive edge.

Ecc

The Micron MTA18ASF2G72PZ-2G3A1 DRAM module features ECC (Error Correcting Code) functionality with a rating of 1. ECC memory is designed to detect and correct errors that occur during data storage and transmission. This feature is particularly important for users who require a high level of data integrity and reliability.

Data Integrity

ECC memory helps ensure data integrity by detecting and correcting errors that may occur during the storage or transmission of data. This is essential for critical applications where even a single bit error can lead to significant issues or data corruption. By using ECC memory like the Micron MTA18ASF2G72PZ-2G3A1 DRAM, you can have peace of mind knowing that your data is protected and accurate.

Reliability

ECC memory increases the reliability of your system by reducing the likelihood of data corruption or crashes caused by memory errors. This is especially crucial for servers, workstations, or any system where data integrity is paramount. By utilizing ECC memory, you can minimize the risk of system failures and costly downtime.

Critical Applications

ECC memory is particularly important for users working with critical applications such as server environments, financial systems, or scientific research. These applications often deal with sensitive data or perform complex calculations, where even a single error can have severe consequences. By utilizing ECC memory, you can maintain the integrity and accuracy of your data.

Server Environments

In server environments where uptime and data integrity are critical, ECC memory is essential. Servers handle a large volume of data and perform numerous computations simultaneously. The detection and correction capabilities of ECC memory help prevent errors from affecting important processes or corrupting stored data, ensuring smooth operation and minimizing the risk of catastrophic failures.

Financial Systems

Financial systems deal with sensitive information such as transactions, customer data, and account balances. Errors in these systems can have severe financial and legal consequences. By using ECC memory, you can safeguard the accuracy and integrity of financial data, reducing the risk of errors and ensuring compliance with industry regulations.

Scientific Research

Scientific research often involves complex simulations, data analysis, and modeling. Errors in these processes can lead to incorrect results or flawed conclusions. By utilizing ECC memory, researchers can trust that their data is accurate and reliable, allowing them to make informed decisions and advance their scientific endeavors.

Registered

The Micron MTA18ASF2G72PZ-2G3A1 DRAM module features registered memory technology. Registered memory, also known as buffered memory, is a type of memory module that includes a register between the DRAM modules and the memory controller. This feature provides several benefits in terms of stability and performance.

Improved Stability

Registered memory enhances system stability by reducing electrical loading on the memory bus. The register acts as a buffer between the memory modules and the memory controller, reducing the electrical load and preventing signal degradation. This helps ensure stable operation even under heavy loads or when using multiple memory modules.

Scalability

The registered memory technology allows for better scalability when using multiple memory modules. By reducing the electrical load on the memory bus, registered memory enables larger memory configurations without compromising stability or performance. This is particularly important for server environments or workstations that require high memory capacities for demanding applications.

Performance Optimization

While registered memory may introduce a slight increase in latency compared to unbuffered memory, it offers performance optimization benefits in certain scenarios. The buffering provided by the register allows for improved signal integrity and reduced electrical noise, resulting in better overall performance and data reliability.

Server Environments

Registered memory is commonly used in server environments where stability and scalability are crucial. Servers often require large memory configurations to handle multiple users or resource-intensive applications. By utilizing registered memory modules like the Micron MTA18ASF2G72PZ-2G3A1 DRAM, server administrators can ensure reliable and efficient system operation.

Workstations

Workstations that handle demanding tasks such as video editing, 3D rendering, or scientific simulations can also benefit from registered memory. The improved stability and scalability provided by registered memory modules allow these workstations to handle large datasets and complex calculations without compromising performance or reliability.

Virtualization

Virtualization platforms that run multiple virtual machines simultaneously can benefit from the stability and scalability of registered memory. The buffering provided by registered memory allows for efficient allocation of resources to each virtual machine, ensuring optimal performance and minimizing the risk of memory-related issues.

Rank

The Micron MTA18ASF2G72PZ-2G3A1 DRAM module features a single rank configuration. Rank refers to the logical organization of a memory module and determines how many separate sets of memory chips are located on the module. A single rank configuration provides several benefits in terms of performance and compatibility.

Improved Memory Access

A single rank configuration allows for improved memory access times compared to modules with multiple ranks. With a single rank, the memory controller can access all the memory chips on the module simultaneously, reducing latency and improving overall system performance. This is particularly important for applications that require fast data access, such as gaming or multimedia editing.

Compatibility

Single rank memory modules like the Micron MTA18ASF2G72PZ-2G3A1 DRAM are widely compatible with a variety of motherboards and systems. This ensures a hassle-free upgrade process and allows you to take advantage of the benefits offered by this RAM module without worrying about compatibility issues. Whether you are building a new system or upgrading an existing one, a single rank configuration provides peace of mind.

Stability

A single rank configuration can contribute to overall system stability. With fewer memory chips and logical organization, there is less complexity involved in accessing and managing memory. This can result in improved stability, especially when using multiple memory modules or running memory-intensive applications.

Gaming Performance

Gamers can benefit from the single rank configuration of the Micron MTA18ASF2G72PZ-2G3A1 DRAM module. The improved memory access times provided by a single rank configuration allow for faster data retrieval, reducing potential bottlenecks and improving gaming performance. This results in smoother gameplay, reduced loading times, and an overall better gaming experience.

General Computing

In general computing scenarios, a single rank configuration provides improved performance for day-to-day tasks such as web browsing, document editing, or multimedia consumption. The faster memory access times contribute to a snappier user experience, allowing you to navigate through applications and open files more quickly.

Multi-Module Setups

When using multiple memory modules in a system, the single rank configuration ensures better compatibility and stability. The simpler logical organization reduces the likelihood of compatibility issues or conflicts between different ranks. This is particularly important for users who require large memory configurations for resource-intensive applications or virtualization environments.

Cas Latency

The Micron MTA18ASF2G72PZ-2G3A1 DRAM module has a CAS latency of Cl17. CAS latency, or column access strobe latency, is a measure of the delay between the memory controller requesting data and the data being available. A lower CAS latency value indicates faster memory responsiveness and improved overall system performance.

Reduced Memory Latency

A lower CAS latency value like Cl17 reduces memory latency, resulting in faster data retrieval and improved system responsiveness. When the memory controller needs to access data, a lower CAS latency ensures that the requested data is available more quickly, reducing potential bottlenecks and enhancing overall performance.

Gaming Performance

Gamers can benefit significantly from a lower CAS latency. The reduced memory latency provided by a Cl17 CAS latency allows for faster loading times, smoother gameplay, and improved frame rates. Games can access the required data more quickly, resulting in a more immersive and enjoyable gaming experience.

Resource-Intensive Applications

Resource-intensive applications such as video editing software or 3D modeling tools can also benefit from a lower CAS latency. These applications often require fast data access to handle large files and complex calculations. With a Cl17 CAS latency, your computer can process these tasks more efficiently, resulting in faster rendering times and improved workflow.

Overclocking Potential

A lower CAS latency can also improve the potential for overclocking your system's memory. Overclocking involves running the memory modules at higher speeds than their default specifications, resulting in increased performance. With a Cl17 CAS latency, you have a better chance of achieving stable overclocks and pushing your system's performance even further.

Multi-Threaded Applications

Multi-threaded applications, which can utilize multiple processor cores simultaneously, can benefit from a lower CAS latency. These applications often require fast memory access to handle the large amounts of data being processed by multiple threads.